Top 50 Bio Based Material

A-Bio Materials develops sustainable alternatives to traditional plastics using agricultural waste and bio-based polymers. Their materials offer biodegradable and compostable solutions for packaging and other applications, reducing reliance on fossil fuels and minimizing environmental impact.

The startup develops a technology that integrates biotechnology, materials science, and molecular simulation to create customizable bio-based materials for personal care, cosmetics, and food products. This approach enables businesses to produce sustainable products with a bio label, addressing the demand for environmentally friendly and tailored consumer goods.

Bcomp provides lightweight, sustainable materials made from natural fibers for high-performance applications across industries. Their ampliTex and power-Ribs technologies reduce the environmental impact of products in automotive, marine, sports, and aerospace by offering a bio-based alternative to traditional materials.

IndiNature manufactures bio-based insulation products from local UK hemp and jute, capturing carbon and producing zero waste. Their materials provide effective temperature and humidity regulation, enhancing indoor comfort while addressing the environmental impact of traditional construction materials.

ZymoChem uses a proprietary Carbon Conserving (C2) microbial platform to convert renewable sugars and lignocellulosic feedstocks into bio‑based chemicals and polymers such as super‑absorbent polymers, nylon 6,6, and specialty coatings. The bioprocess achieves yields and material performance comparable to petrochemical routes while eliminating the price premium and delivering biodegradable polymers that can replace fossil‑derived materials in existing manufacturing lines. ZymoChem supplies commercial‑scale, high‑purity polymer grades to manufacturers of hygiene products, textiles, and other consumer goods.

21st Bio develops sustainable bio-based alternatives to replace traditional meals and materials, utilizing advanced fermentation processes and strain optimization for high product yield and stability. The company addresses the need for environmentally friendly solutions in food and material production, enabling businesses to reduce their ecological footprint while maintaining quality.

traceless materials produces traceless®, a fully plant-based and home compostable material derived from agricultural by-products, designed to replace conventional plastics in various applications. This technology addresses plastic pollution by providing a biodegradable alternative that disintegrates naturally within weeks, significantly reducing climate emissions throughout its lifecycle.

Sulapac develops biodegradable materials that replace conventional oil-based plastics in various applications, including packaging and cosmetics. By utilizing 100% biobased materials, Sulapac significantly reduces carbon footprints and eliminates microplastic pollution, offering a sustainable alternative without compromising functionality or aesthetics.

altM transforms lignocellulosic agricultural residues into scalable bio-chemicals and biomaterials, providing sustainable alternatives to traditional materials in industries such as packaging, textiles, and pharmaceuticals. This process helps companies reduce their carbon footprint and reliance on unsustainable resources throughout their supply chains.

Xampla develops Morro™ materials, natural and biodegradable substitutes for traditional plastics, using plant-based feedstocks that require no chemical modification. These materials address the issue of plastic pollution by fully biodegrading at the end of their life cycle, effectively turning into nutrients for soil microorganisms.

Modern Synthesis utilizes a patent-pending biotechnology process that harnesses bacteria to convert agricultural sugars into customizable nanocellulose-based materials, providing a sustainable alternative to animal-derived and fossil-fuel-based textiles. This approach addresses the environmental impact of traditional fabrics by offering biodegradable, plastic-free options that significantly reduce greenhouse gas emissions and plastic pollution.

The startup develops bio-based packaging materials using green processing technology that eliminates toxic chemicals, providing sustainable alternatives to single-use plastics. Their compostable food packaging products offer organizations a measurable reduction in environmental impact compared to conventional plastic options.

Bolt Threads develops sustainable biomaterials, such as Mylo made from mycelium and Microsilk derived from spider silk proteins, using biotechnology and fermentation processes. These materials provide eco-friendly alternatives to traditional leather and textiles, addressing the environmental impact of the fashion and beauty industries.

MABE Bio develops high-value textile materials by utilizing both ancestral and contemporary research methods to transform plant-based raw materials from Brazilian biodiversity. This approach addresses the need for sustainable alternatives in the textile industry, promoting materials that coexist harmoniously with the environment.

This startup operates a material science platform that utilizes microorganisms and agricultural waste to produce fully biodegradable and biocompatible biomaterials, specifically next-generation leather alternatives. By employing a biomimicry approach, the company provides the fashion industry with a sustainable solution to the environmental impact of traditional leather production.

Lignin Industries transforms lignin, a by-product of the forest and agricultural industries, into Renol®, a thermoplastic biomaterial that can replace fossil-based plastics in various applications. This technology enables manufacturers to reduce fossil fuel dependency and lower CO2 emissions while utilizing existing production machinery for a seamless transition to sustainable materials.

Bluepha is a biomanufacturing company that produces Bluepha® PHA, a fully biodegradable material derived from microbial fermentation of oils and starches. This technology provides a sustainable alternative to conventional plastics, addressing the environmental impact of plastic waste by offering certified, compostable solutions for various applications, including packaging and food contact materials.

SCALE develops bio-based composite materials that enhance performance while significantly reducing production costs and greenhouse gas emissions compared to traditional carbon fiber. By utilizing renewable resources and low-impact processes, SCALE addresses the environmental impact of advanced composites used in various industries, including automotive and sporting goods.

Ellie utilizes advanced silkworm biotechnology to produce high-value food and apparel ingredients, combining unique sericulture techniques with food processing methods. This approach addresses the need for sustainable, bio-based materials that enhance both nutritional value and textile performance.

Plastic Move produces bio-based and biodegradable bioplastics from starch-based food waste, specifically waste bread, to replace petroleum-based plastics in various industries. This approach reduces carbon emissions by up to 50% and supports the circular economy by upcycling waste materials into high-quality, multi-use products.

Rheom Materials develops biopolymers from plant-based materials using melt extrusion techniques to create sustainable alternatives for the fashion, home goods, electronics, and automotive industries. This approach addresses the reliance on traditional plastics by providing accessible and practical bio-based materials that reduce environmental impact.

The startup produces crude lignin oil and crude sugar oil from agricultural and forestry residues, providing a bio-based alternative to fossil fuels for the petrochemical industry. This sustainable raw material can replace fossil crude oil in the production of materials, chemicals, and fuels, offering a renewable source for companies seeking to reduce their carbon footprint.

The startup develops renewable, recyclable, and biodegradable materials from agricultural waste, utilizing vegetable and biodegradable fibers to create strong and durable alternatives to plastic and wood. This addresses the environmental impact of plastic pollution and the unsustainability of traditional wood products by providing a non-toxic solution for various applications.

B4Plastics specializes in the development and production of biopolymers using bio-based building blocks, enabling the creation of customized biomaterials for various applications. The company addresses the need for sustainable plastic alternatives by offering scalable solutions from research and development to bulk production and licensing.

This startup develops biodegradable and renewable plant-based adhesives and protective coatings for various industries, including packaging, construction, and automotive. By replacing synthetic materials with bio-based solutions, the company provides cost-effective alternatives that minimize environmental impact and enhance sustainability.

The startup develops sustainable bio-based materials from seafood waste, mushrooms, and coffee grounds, providing a biodegradable alternative to traditional faux and animal leather. This approach enables companies to significantly lower greenhouse gas emissions and reduce their carbon footprint while maintaining cost-effectiveness.

The startup manufactures plant-based concrete and biomimetic construction materials that utilize bio-based inputs and circular economy principles. This approach provides businesses with sustainable alternatives for waste management and construction, reducing reliance on traditional, environmentally harmful materials.

Biotic manufactures fully biodegradable PHBV polymers using diverse feedstocks such as sea algae and agricultural waste, providing a sustainable alternative to conventional plastics. This technology addresses the plastic pollution crisis by enabling a circular economy with zero waste production and no toxic residues.

FineCell produces micro- and nanocellulose using patented technology to provide sustainable, bio-based materials for personal care products and consumer goods. Their solutions replace fossil-derived ingredients, enabling manufacturers to create differentiated products while significantly reducing carbon footprints.

Mi Terro engineers agricultural waste into bio-based, water-degradable biomaterials that replace microplastics in products like food packaging and detergent pods. Their patented technology utilizes non-food feedstocks, resulting in lower CO2 emissions and no competition with food production, while providing superior mechanical properties compared to conventional plastics.

The startup develops biodegradable plastic materials from plant-based biomass, providing a sustainable alternative to petroleum-based ABS plastic. This technology directly addresses the issue of plastic pollution by offering a natural replacement that reduces reliance on fossil fuels.

OzoneBio produces biodegradable bioplastics from lignocellulosic waste, offering a sustainable alternative to traditional plastics. Their process transforms agricultural and forestry byproducts into eco-friendly materials, reducing waste and reliance on fossil fuels.

Mush is a biotechnology platform that utilizes mycelium-based technology to create biodegradable materials as alternatives to conventional plastics. This solution directly addresses the environmental issues caused by plastic waste by offering sustainable materials that decompose naturally.

Balena develops BioCir®, a biopolymer material that can be processed like conventional plastics and biodegrades into renewable biomass, eliminating waste at the end of its lifecycle. This technology addresses the environmental impact of traditional fossil-based plastics by providing a sustainable alternative with a safe end-of-life solution.

Mycel Project develops and manufactures biomaterials derived from mycelium, providing a sustainable alternative to traditional leather and animal products. Their closed-loop bioprocess minimizes waste and allows for flexible production of various eco-friendly materials, addressing the environmental impact of the leather industry.

nature2need develops biomaterials by incorporating up to 50% agricultural and organic industrial residues into standard polymer processes, significantly reducing carbon emissions and material costs. Their Mottainai 5.0 model valorizes local organic waste streams into sustainable feedstock, addressing the challenges of plastic pollution and resource underutilization.

NaturLoop produces Cocoboard®, a bio-based panel made from upcycled coconut husk fibers bonded with a non-toxic resin, achieving E0 grade for formaldehyde emissions. This sustainable material is designed for furniture and interior architecture, providing a viable alternative to traditional wood products while minimizing environmental impact.

Modern Meadow produces BIO-VERA, a bio-fabricated material made from proteins and polymers, offering a sustainable alternative to traditional materials like leather and synthetics. BIO-VERA integrates into existing manufacturing processes for industries like automotive, footwear, and fashion, providing a more environmentally friendly option without sacrificing performance.

SpadXTech uses a low‑temperature microbial fermentation platform to turn renewable feedstocks, including upcycled food waste, into cellulose‑based biopolymers. The resulting fabrics, foams and films match the strength, flexibility and barrier performance of conventional plastics while being fully biodegradable and compatible with existing textile, molding and coating equipment. This enables manufacturers in textiles, construction, packaging and related sectors to replace petroleum‑derived plastics without redesigning their supply chains, reducing energy use and carbon emissions.

This startup produces bio-based plastics from marine waste and algal biomass, utilizing green macroalgae collected from beaches. By converting this pollutant into biodegradable and recyclable plastic products, the company addresses the environmental impact of plastic waste and promotes sustainable development.

CelluXtreme develops bio-based composite materials using nanocellulose extracted from plants, produced through a water-based process that adheres to green chemistry principles. Their technology provides lightweight, recyclable solutions that enhance mechanical performance and thermal conductivity, addressing the industry's need for sustainable alternatives in composite applications.

This startup transforms industrial waste into biodegradable biopolymers using mycelium, the root structure of fungi, to create cost-competitive and carbon-negative alternatives to petroleum-based plastics. Their materials outperform existing biodegradable options in quality and performance, addressing the urgent need for sustainable solutions in various industries, including packaging and personal care.

RiceFort transforms agricultural waste, specifically rice husks, into bio-based materials, including 3D printed products, to replace traditional plastics and reduce carbon emissions. This process addresses the challenges of agricultural waste management while providing sustainable material options for consumers and businesses.

Planted Materials processes organic waste to create renewable, plant-based materials that serve as alternatives to petroleum-based products. By transforming waste into cellulose, lipids, and chemicals, the company provides sustainable feedstocks for various industries, reducing landfill contributions and greenhouse gas emissions.

Greenitio develops sustainable material alternatives to microplastics and petroleum-based ingredients using computational modeling and green chemistry. They design and synthesize bio-based, biodegradable materials for products with high environmental impact, reducing microplastic pollution.

Natural Negative develops high-performance, bio-based, and compostable materials specifically for additive manufacturing, addressing the environmental impact of traditional 3D printing materials. Their sustainable solutions enable manufacturers to reduce plastic waste while maintaining product performance and quality.

Myconom designs and produces mycelium-based composite materials using agricultural waste, which are fully biodegradable and compostable in natural environments. This technology addresses the issues of plastic waste and carbon emissions by providing a sustainable alternative to petroleum-based products.

This green technology company produces bio-based precursors from lignin, a byproduct of the pulp and paper industry, using a patented process. These tailored lignin products offer sustainable alternatives for various biochemical and biomaterial applications, enabling industries to create customized, environmentally friendly products.

The startup develops bio-based degradable materials using environmentally friendly stearin derived from tall oil, aimed at minimizing reliance on fossil fuels and unsustainable raw materials. Their products provide consumers with sustainable alternatives that reduce environmental impact and promote responsible consumption.

The startup manufactures bioplastic materials by converting lignocellulosic biomass into functional bioplastics, addressing the need for renewable and eco-friendly alternatives in various industries. This technology enables customers to produce bio-content products that contribute to a low-carbon bio-economy and promote sustainable value chains.